Abstract:It is expected that the CO₂ concentration of the Earth’s atmosphere will reach 600–1000 ppm by the end of the 21st century. Therefore, in this study, we evaluated the effects of elevated CO₂ concentrations on the development of rain-fed spring wheat in an attempt to identify a practical pathway to increase crop production. To accomplish this, a field experiment was conducted at Guyuan Experimental Station in a semiarid region of China during 2005–2007. During this experiment, the CO₂ concentration was increased to 40.0 ppm and supplemental irrigation and nitrogenous fertilizer (N fertilizer) were applied. The experimental results showed that the elevated CO₂ concentration significantly improved the thousand-grain weight and the grain number per spike. Furthermore, supplemental irrigation and N fertilizer application during the elongation and booting stage of rain-fed spring wheat in conjunction with an elevated CO₂ concentration improved the water use efficiency (WUE), nitrogen use efficiency (NUE), thousand-grain weight, and the yield by 14.6%, 39.6%, 9.3%, and 14.7%, respectively, when compared to groups subjected to the same treatment but not grown under elevated CO₂ concentrations. Furthermore, the spring wheat yield was improved by 81.8% in response to an elevated CO₂ concentration, 60 mm of supplemental irrigation and applied N fertilizer (37.5 g m^-2 NH₄NO₃). However, the presence of an elevated CO₂ concentration without supplemental irrigation and N fertilizer only resulted in an increase in the wheat yield of 7.8%. Consequently, the combination of elevated CO₂ concentration, supplemental irrigation and N fertilizer application played an important role in the improvement of WUE, NUE, thousand-grain weight, and grain yield of rain-fed spring wheat in this region.

Abstract:The duck-rice and fish-rice were two important strategies of pest management in the process of organic rice. The niches and interspecific competitions of wolf spiders and mirid bug, Cyrtorhinus lividipennis under three strategies of pest management in paddy fields were studied in order to understand the influences of different pest control methods on ecological relationships between the two main types of predators. The results of our study suggested that ducks might prey upon wolf spiders resting on the base of rice plants, thus the populations of wolf spiders decreased in duck-rice treatment. The impact of ducks on mirid bug was not significant because it preferred to congregate on the mid-part of rice plants. The temporal selectivity of wolf spiders was smaller than that of mirid bug, which meant occurrence frequency of wolf spiders was higher compared with mirid bug. In addition, competition between wolf spiders and mirid bug was significantly more intense in duck-rice or fish-rice treatment than in natural control treatment at different stages. Probably, ducks and fishes drove wolf spiders away from their original spatial niche, the base to the mid-part in rice plants, enhancing competition between wolf spiders and mirid bug in duck-rice or fish-rice treatment. Based on the results of this study, duck-rice or fish-rice, as a control pest method in the process of organic rice, should be prudentially treated.

Abstract:Chose the arid interior district Shiyang River basin four issues of Landsat/TM images from 1986 to 2006 to visually interpret, and analyze the natural succession of ecological environment and the landscape pattern characteristic under the human activity interference. The results showed that in past 20 years, the number of landscape patch has increased, but the average patch size was decreasing, which explained that the landscape fragmentation degree was increasing, the landscape integrity was declining. The edge density of landscape remained invariable basically, which explained its stability maintained good. The diversity and evenness index continually enhanced, the diversity increased from 0.73 in 1986 to 0.84 in 2006. The mean core patch area of study area reduced from134.47 hm² in 1994 to 127.67 hm² in 2006, which indicated that the landscape core area was decreasing. On the one hand, it accelerated circulatory speed of species and reduced resistance of the energy flux. On the other hand it destroyed the integrity of the original landscape, easily caused the core area reducing continually, and led to vicious circle of the landscape separation. Seen from the whole study area, The utilization of landscape developed to the heterogeneous direction, indicated the proportional difference between various landscapes types was increasing, this kind of change has reflected the human activity’s influence to the whole landscape to a certain extent. It is believed that there are a series of landscape ecological problems such as low landscape ecological connectivity, simplified landscape structure and the more oasis fragmentation. In order to solve these problems, according to the principle that the movements of flow, energy and material in a landscape are related to some factors such as distance, time, impedance, etc., this study adopts the minimum accumulative resistance surface (MARS), the minimum cost resistance (MCR) model, and uses the surface diffusion technology to analyze compactness of landscape structure and the spatial difference of ecological function in Shiyang River basin. Then constructs some landscape components such as source, corridor and ecological node to strengthen the spatial connection of ecological network, and further discusses the landscape pattern optimization proposal.

Abstract:A total of 319 bacterial strains isolated from the surfaces of seaweeds and invertebrates were tested for their effects on settlement of Ulva lactuca spores and Hydroides ezoensis larvae in laboratory bioassays. Of the 192 bacterial strains isolated from the surfaces of seaweeds 63 isolates were shown to be inhibitory against the settlement of algal spores and 62 isolates were inhibitory against larval settlement. Thirty-seven percent of the 127 bacterial strains isolated from the surfaces of marine invertebrates were shown to be inhibitory against algal spores and larval settlement. The strain CI4 isolated from an adult Cionaintestinalis showed the strongest inhibitory effect and was identified as Pseudoalteromonas sp. via 16S rRNA gene sequencing. The high proportions of host associated bacteria producing antifouling compounds suggest that these bacteria may help the host organism in the defense against fouling.

Abstract:In a previous study, a total of 484 endophytic fungi were isolated and purified from seven populations of Achnatherum sibiricum (L.) Keng collected at six geographical locations in Inner Mongolia, China. Based on growth rates as well as morphological characteristics, the isolates were classified into five morphotypes. Among them, morphotypes A, B and C were ascribed to the same species, Neotyphodium chisosum, based on ITS sequences. Morphotype E was identified as Epichloë amarillans. In the present study, four morphotypes, A, B, C and E, belonging to two species, were chosen for an in vitro pathogen trial. The results showed that both endophyte colonies and endophyte filtrate of all morphotypes could inhibit the mycelia growth and spore germination of the pathogen fungi tested. The magnitude of inhibition varied not only between species, but also among morphotypes of the same species. Overall, the antifungal ability of E. amarillans (morphotype E) was higher than that of N. chisosum. Within N. chisosum, the antifungal ability was highest in morphotype C, followed by morphotype A, and lowest in morphotype B. This variability suggests that different morphotypes might represent different genotypes of endophyte. The effect of endophyte infection on the host grass should be examined not only on the species level but also on the morphotype level to determine the possible interactions.

Abstract:Studies on disclosing characteristics and endangered mechanisms of Castanopsis kawakamii population ecology have already become an urgent task of protecting C. kawakamii population. The establishment of the standard life table is one of an important work study on C. kawakamii population ecology, and determining individual ages of the plant is necessary for studying age structures and population dynamics of C. kawakamii. There are three main methods of determining individual age of forest population: (1) by annual ring of tree, (2) by individual growth phase, and (3) by DBH and height of tree. However, the three methods have their shortcomings, such as low precision, worse serviceability, high difficulty for operation and so on. In this paper, a new method for determining plant individual ages more accurately is presented on the basis of the method about “annual ring–time series”. Based on the stem analysis, the multidimensional time series model of diameter growth at breast height in C. kawakamii population was established by utilizing the analytical method of multidimensional time series: Y_t = 1.325034Y_t-1 - 0.4711007Y_t-2 - 284.5648U_t + 569.4783U_t-1 - 284.8745U_t-2, where Y_t, Y_t-1, Y_t-2 represent diameter growth in C. kawakamii population at t, t - 10 and t - 20 years respectively, and U_t, U_t-1, U_t-2 represent individual age in C. kawakamii population at t, t - 10 and t - 20 years respectively, the model coefficient correlation is 0.9994. Based on this model CAR(2), the total increment of individual DBH in C. kawakamii population are simulated and regressively verified at different ages. The mean simulating precision of this model was 98.84%, the maximum relative error was 2.56%, but the next was 2.47% and the minimum relative error was 0.07%, showing that this model was suitable for estimating breast-height diameter of C. kawakamii plant. Using the multidimensional time series model, diameter growth of C. kawakamii population for longer time series was estimated in order to gain data for establishing the relationship model of individual age, diameter growth and to increase its precision in determining individual age is by tree ring analysis. A combination method of determining individual age of C. kawakamii population by integrating annual ring data with its diameter using multidimensional time series model, which can improve precision of individual ages in C. kawakami, was produced: A = 9.966671944 1.146011591D 0.041059628D² - 0.000211907D³, where A and D represent individual age and diameter at breast height respectively in C. kawakamii population, the model coefficient correlation is 0.9998. The combination model, which shows that the regression relationship is significant and the model can exactly predict the individual age of population, is a valuable tool for determining individual ages in endangered plants.

Abstract:Robinia pseudoacacia is a North American species and in Poland it is currently invasive in character. It is used to recultivate sand excavations and others, most often in order to make the process of plant and soil succession more advanced. It has been observed that in places were R. pseudoacacia dominated in plantations, the herbaceous vegetation under the trees is poor and sometimes other vascular plants are not appearing at all. Plants usually overgrow the space out of the canopy shade. The positive influence of R. pseudoacacia on a habitat is primarily connected with the chemical composition of plant litter, as well as with the biology of the species. Chemical composition of R. pseudoacacia litter has been researched. The greatest accumulation of elements has been observed in the following parts: green leaves (Ca > K > Mg > P > Si > Na > Fe > Zn > Al > Mn) and leaf litter (Ca > K > Mg > Si > Fe > P > Na > Al > Zn > Mn). Similar regularities are observed in the remaining litter of R. pseudoacacia. It must be emphasized that nitrogen occurs in similar quantities in particular samples and it varies from 1.01 to 2.65%. The plant litter reaction (pH) vary from acid to weakly acid. In a short period of time under the canopy of R. pseudoacacia a 10 cm organic and humus horizont (O/A) has developed.

Abstract:The impact of UV-B radiation on endogenous hormones in plants has recently drawn attention from researchers. The mechanism for reduced stem elongation by UV-B might be due to changes in the phytohormone levels, especially IAA, which plays a role in stem elongation. In this study, effects of UV-B radiation on Trichosanthes kirilowii Maxim (T. kirilowii) seedlings in greenhouse-grown plants were investigated. The results indicated that: (1) In comparison to controls, exposure to 0.029 Jm^-2 s^-1. UV-B radiation led to accumulation of endogenous abscisic acid (ABA) and zeatinriboside (ZR) in the plant contents, and decreased contents of endogenous indole-3-acetic acid (IAA) and gibberellic acid (GA_1/3). Exposure to UV-B radiation reduced the height and leaf area of plants. As a result, total biomass (plant dry weight) was lower. (2) In comparison to controls, addition of 2 mg l^-1 α-naphthaleneacetic acid (α-NAA) slightly increased the contents of IAA, GA_1/3 and ZR, and decreased the content of ABA in leaves. This addition of α-NAA significantly increased plant height and leaf area, but only slightly increased total biomass. (3) Addition of α-NAA to UV-B-exposed plants: increased the content of endogenous IAA, GA_1/3 and ZR; decreased accumulation of endogenous ABA; and increased plant height and leaf area in comparison to plants that only were exposed to UV-B. Moreover, total biomass increased slightly. This suggests that addition of α-NAA may compensate to a certain extent for the lack of IAA resulting from UV-B radiation; it also increases the content of GA_1/3 and ZR, decreases the accumulation of ABA, and promotes the growth of plants.

Abstract:A large quantity of leaf litter was left on soil surface after soybean (Glycine max) harvest in the black soil region, northeast of China, where soybean was planted with the largest area. This paper investigated the effects of different fall tillage practices on soybean leaf litter sequestration into soil, and the subsequently durative effects on soil biological and biochemical properties during the next growing season. Two practices were investigated, fall tillage (T) and no fall tillage (NT) after soybean harvest in autumn. Results showed that the residue biomass on soil surface and in subsoil profile (0–20 cm) after soybean harvest was about 1450 kg ha^-1 and 340 kg ha^-1, respectively in October 2006. The residue biomass on soil surface and in subsoil profile was about 84 kg ha^-1, 1581 kg ha^-1 for T, and 423 kg ha^-1, 340 kg ha^-1 for NT respectively in May 2007. It was obvious that T practice can more effectively sequester leaf litter into soil compared to NT. Results also showed that T practices after soybean harvest eminently improved soil microbial carbon biomass and nitrogen biomass contents, and significantly improved soil urease and acid phosphate activities than NT. No significant difference of dehydrogenase activity was found between N and NT. The positive effects of T treatment on Soil microbial properties and soil enzymes activities among the next growing season due to soybean residues sequestration performed durative profit.

Abstract:The energy dynamics in Thiashola grassland, a montane subtropical vegetation in Nilgiri Biosphere Reserve, the Western Ghats, India is studied for a period of one year. The study revealed that the energy content in unit biomass of C₃ and C₄ species has not varied significantly. However, the C₄ species in total due to higher net primary production, entrapped 8.5 times greater solar energy (28.82 kcal/m²/day) than that of their C₃ counterparts. Of the total energy fixed, the C₃ and C₄ species, respectively channeled 4.07 kcal/m²/day and 13.3 kcal/m²/day to the aboveground standing live compartment. The transfer rate of energy to standing dead compartment from standing live part were 3.22 kcal/m²/day and 10.36 kcal/m²/day for C₃ and C₄ species, respectively and both the C₃ and C₄ together transferred 4.81 kcal/m²/day of energy from standing dead to litter compartment. The total dissipation of energy from the system is determined to be 4401.11 kcal/m²/yr and the surplus quantity of 38.37% of energy is accumulated in the aboveground parts of both C₃ and C₄ species which indicates the availability of substantial amount of energetic fodder to the wild herbivores in the Thiashola grassland.